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11 Nov 2019
Need help with number one. I know these are the answers but I donât know how to get them 12 Activation Energy 1.) Using a graphing calculator (or computer) make an a below for the decomposition of iodoethane to ethane and hydrogen iodide Arrhenius plot of the data given 660. 680 7.2 à 104 | 2.2Ã10s | 1.7Ã102 | 0.11 720 760. a) Determine the activation energy for the reaction. b) Predict the value of the rate constant at 400. °C (2) The rate constant of the second-order reaction 2 HI@ â H00 + 100 is 2.4 x 10"Lmol si at 575 K and 6.0 à 105 Lmols-1 at 630. K·Calculate the Activation Energy for this reaction. 3, The rate constant of the reaction between CO, and OFH in aqueous solution to give bicarbonate ion, termine the rate constant at norma temperature (37 °Q if the activation energy is 38 kJmol'. For the reaction profile shown below a) 4. What species are represented at points A, B, and C? How many steps are in the overall reaction? c) How many transition state complexes are produced during the course of the reaction? What is the rate-determining step of the reaction? Is the reaction endo- or exothermic? e) Rraction pathway For the reaction profile below for the isomerization of air to tans-butene: a) What energies are represented by the numbers 2, 3, and 4 What species is represented at point 1? in the reaction mechanism? ate-determining step? vd.S ie the
Need help with number one. I know these are the answers but I donât know how to get them
12 Activation Energy 1.) Using a graphing calculator (or computer) make an a below for the decomposition of iodoethane to ethane and hydrogen iodide Arrhenius plot of the data given 660. 680 7.2 à 104 | 2.2Ã10s | 1.7Ã102 | 0.11 720 760. a) Determine the activation energy for the reaction. b) Predict the value of the rate constant at 400. °C (2) The rate constant of the second-order reaction 2 HI@ â H00 + 100 is 2.4 x 10"Lmol si at 575 K and 6.0 à 105 Lmols-1 at 630. K·Calculate the Activation Energy for this reaction. 3, The rate constant of the reaction between CO, and OFH in aqueous solution to give bicarbonate ion, termine the rate constant at norma temperature (37 °Q if the activation energy is 38 kJmol'. For the reaction profile shown below a) 4. What species are represented at points A, B, and C? How many steps are in the overall reaction? c) How many transition state complexes are produced during the course of the reaction? What is the rate-determining step of the reaction? Is the reaction endo- or exothermic? e) Rraction pathway For the reaction profile below for the isomerization of air to tans-butene: a) What energies are represented by the numbers 2, 3, and 4 What species is represented at point 1? in the reaction mechanism? ate-determining step? vd.S ie the
Elin HesselLv2
24 Feb 2019